Title :
Statistical analysis of soft and hard breakdown in 1.9-4.8-nm-thick gate oxides
Author :
Mizubayashi, Wataru ; Yoshida, Yuichi ; Murakami, Hideki ; Miyazaki, Seiichi ; Hirose, Masataka
Author_Institution :
Dept. of Electr. Eng., Hiroshima Univ., Japan
fDate :
5/1/2004 12:00:00 AM
Abstract :
We have systematically analyzed the time-to-hard breakdown (tBD) and time-to-soft breakdown (tSBD) distributions for 1.9-4.8-nm-thick oxides. The tBD and tSBD distributions well fit to the Weibull distribution function. Also, the Weibull slope β of the tSBD distributions coincides with that of the tBD distributions over the oxide thickness range 1.9-4.8 nm, and β linearly decreases with decrease of oxide thickness. It is also shown that decrease in β of both tSBD and tBD distributions is well correlated to measured Si-O-Si bond angle reduction induced by compressive stress in the oxide network near the SiO2-Si(100) interface. These results suggest that soft breakdown as well as hard breakdown in ultrathin gate oxides are triggered by a common physical mechanism such as defect generation from strained-Si-O-Si bonds under strong electric field.
Keywords :
Weibull distribution; elemental semiconductors; semiconductor device breakdown; semiconductor device reliability; silicon compounds; statistical analysis; 1.9 to 4.8 nm; Si-O-Si bond angle reduction; SiO2-Si; SiO2-Si(100) interface; Weibull distribution function; Weibull slope; compressive stress; defect generation; electric field; gate oxides; hard breakdown; oxide network; oxide thickness; soft breakdown; strained bonds; time-to-hard breakdown; time-to-soft breakdown; ultrathin gate oxide; Atomic force microscopy; Bonding; Electric breakdown; Goniometers; Oxidation; Statistical analysis; Stress measurement; Thermal force; Transmission electron microscopy; Weibull distribution;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.826505
